/*
 * Copyright (C) 2015-2020, Xilinx Inc - All rights reserved
 * Xilinx Runtime (XRT) APIs
 *
 * Licensed under the Apache License, Version 2.0 (the "License"). You may
 * not use this file except in compliance with the License. A copy of the
 * License is located at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 * License for the specific language governing permissions and limitations
 * under the License.
 */

#ifndef _XCL_XRT_CORE_H_
#define _XCL_XRT_CORE_H_

#ifdef __cplusplus
#include <cstdlib>
#include <cstdint>
#else
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#endif

#if defined(_WIN32)
#ifdef XCL_DRIVER_DLL_EXPORT
#define XCL_DRIVER_DLLESPEC __declspec(dllexport)
#else
#define XCL_DRIVER_DLLESPEC __declspec(dllimport)
#endif
#else
#define XCL_DRIVER_DLLESPEC __attribute__((visibility("default")))
#endif

#if defined (_WIN32)
#define NOMINMAX
#include <windows.h>
#include "windows/types.h"
#endif

#include "xclbin.h"
#include "xclperf.h"
#include "xcl_app_debug.h"
#include "xclerr.h"
#include "xclhal2_mem.h"

#ifdef __cplusplus
extern "C" {
#endif

/**
 * DOC: Xilinx Runtime (XRT) Library Interface Definitions
 *
 * Header file *xrt.h* defines data structures and function signatures
 * exported by Xilinx Runtime (XRT) Library. XRT is part of software
 * stack which is integrated into Xilinx reference platform.
 */

/**
 * typedef xclDeviceHandle - opaque device handle
 *
 * A device handle of xclDeviceHandle kind is obtained by opening a
 * device. Clients pass this device handle to refer to the opened
 * device in all future interaction with XRT.
 */
typedef void * xclDeviceHandle;
#define XRT_NULL_HANDLE NULL

/*
 * typedef xclBufferHandle - opaque buffer handle
 *
 * A buffer handle of xclBufferHandle kind is obtained by allocating
 * buffer objects. The buffer handle is used by XRT APIs that operate
 * on on buffer objects.
 */
#ifdef _WIN32
typedef void * xclBufferHandle;
# define NULLBO	INVALID_HANDLE_VALUE
#else
typedef unsigned int xclBufferHandle;
# define NULLBO	0xffffffff
#endif
#define XRT_NULL_BO NULLBO

struct axlf;

/**
 * Structure used to obtain various bits of information from the device.
 */

struct xclDeviceInfo2 {
  unsigned int mMagic; // = 0X586C0C6C; XL OpenCL X->58(ASCII), L->6C(ASCII), O->0 C->C L->6C(ASCII);
  char mName[256];
  unsigned short mHALMajorVersion;
  unsigned short mHALMinorVersion;
  unsigned short mVendorId;
  unsigned short mDeviceId;
  unsigned short mSubsystemId;
  unsigned short mSubsystemVendorId;
  unsigned short mDeviceVersion;
  size_t mDDRSize;                    // Size of DDR memory
  size_t mDataAlignment;              // Minimum data alignment requirement for host buffers
  size_t mDDRFreeSize;                // Total unused/available DDR memory
  size_t mMinTransferSize;            // Minimum DMA buffer size
  unsigned short mDDRBankCount;
  unsigned short mOCLFrequency[4];
  unsigned short mPCIeLinkWidth;
  unsigned short mPCIeLinkSpeed;
  unsigned short mDMAThreads;
  unsigned short mOnChipTemp;
  unsigned short mFanTemp;
  unsigned short mVInt;
  unsigned short mVAux;
  unsigned short mVBram;
  float mCurrent;
  unsigned short mNumClocks;
  unsigned short mFanSpeed;
  bool mMigCalib;
  unsigned long long mXMCVersion;
  unsigned long long mMBVersion;
  unsigned short m12VPex;
  unsigned short m12VAux;
  unsigned long long mPexCurr;
  unsigned long long mAuxCurr;
  unsigned short mFanRpm;
  unsigned short mDimmTemp[4];
  unsigned short mSE98Temp[4];
  unsigned short m3v3Pex;
  unsigned short m3v3Aux;
  unsigned short mDDRVppBottom;
  unsigned short mDDRVppTop;
  unsigned short mSys5v5;
  unsigned short m1v2Top;
  unsigned short m1v8Top;
  unsigned short m0v85;
  unsigned short mMgt0v9;
  unsigned short m12vSW;
  unsigned short mMgtVtt;
  unsigned short m1v2Bottom;
  unsigned long long mDriverVersion;
  unsigned int mPciSlot;
  bool mIsXPR;
  unsigned long long mTimeStamp;
  char mFpga[256];
  unsigned short mPCIeLinkWidthMax;
  unsigned short mPCIeLinkSpeedMax;
  unsigned short mVccIntVol;
  unsigned short mVccIntCurr;
  unsigned short mNumCDMA;
};

/**
 *  Unused, keep for backwards compatibility
 */
enum xclBOKind {
    XCL_BO_SHARED_VIRTUAL = 0,
    XCL_BO_SHARED_PHYSICAL,
    XCL_BO_MIRRORED_VIRTUAL,
    XCL_BO_DEVICE_RAM,
    XCL_BO_DEVICE_BRAM,
    XCL_BO_DEVICE_PREALLOCATED_BRAM,
};

enum xclBOSyncDirection {
    XCL_BO_SYNC_BO_TO_DEVICE = 0,
    XCL_BO_SYNC_BO_FROM_DEVICE,
    XCL_BO_SYNC_BO_GMIO_TO_AIE,
    XCL_BO_SYNC_BO_AIE_TO_GMIO,
};

/**
 * Define address spaces on the device AXI bus. The enums are used in
 * xclRead() and xclWrite() to pass relative offsets.
 */

enum xclAddressSpace {
    XCL_ADDR_SPACE_DEVICE_FLAT = 0,     // Absolute address space
    XCL_ADDR_SPACE_DEVICE_RAM = 1,      // Address space for the DDR memory
    XCL_ADDR_KERNEL_CTRL = 2,           // Address space for the OCL Region control port
    XCL_ADDR_SPACE_DEVICE_PERFMON = 3,  // Address space for the Performance monitors
    XCL_ADDR_SPACE_DEVICE_REG     = 4,  // Address space for device registers.
    XCL_ADDR_SPACE_DEVICE_CHECKER = 5,  // Address space for protocol checker
    XCL_ADDR_SPACE_MAX = 8
};


/**
 * Defines log message severity levels for messages sent to log file
 * with xclLogMsg cmd
 */

enum xrtLogMsgLevel {
     XRT_EMERGENCY = 0,
     XRT_ALERT = 1,
     XRT_CRITICAL = 2,
     XRT_ERROR = 3,
     XRT_WARNING = 4,
     XRT_NOTICE = 5,
     XRT_INFO = 6,
     XRT_DEBUG = 7
};

/**
 * Defines verbosity levels which are passed to xclOpen during device
 * creation time
 */

enum xclVerbosityLevel {
    XCL_QUIET = 0,
    XCL_INFO = 1,
    XCL_WARN = 2,
    XCL_ERROR = 3
};

enum xclResetKind {
    XCL_RESET_KERNEL, // not implemented through xocl user pf
    XCL_RESET_FULL,   // not implemented through xocl user pf
    XCL_USER_RESET
};

#define XCL_DEVICE_USAGE_COUNT 8
struct xclDeviceUsage {
    size_t h2c[XCL_DEVICE_USAGE_COUNT];
    size_t c2h[XCL_DEVICE_USAGE_COUNT];
    size_t ddrMemUsed[XCL_DEVICE_USAGE_COUNT];
    unsigned int ddrBOAllocated[XCL_DEVICE_USAGE_COUNT];
    unsigned int totalContexts;
    uint64_t xclbinId[4];
    unsigned int dma_channel_cnt;
    unsigned int mm_channel_cnt;
    uint64_t memSize[XCL_DEVICE_USAGE_COUNT];
};

struct xclBOProperties {
    uint32_t handle;
    uint32_t flags;
    uint64_t size;
    uint64_t paddr;
    int reserved; // not implemented
};

/**
 * DOC: XRT Device Management APIs
 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 */

/**
 * xclProbe() - Enumerate devices found in the system
 *
 * Return: count of devices found
 */
XCL_DRIVER_DLLESPEC
unsigned int
xclProbe();

/**
 * xclOpen() - Open a device and obtain its handle.
 *
 * @deviceIndex:   Slot number of device 0 for first device, 1 for the second device...
 * @logFileName:   Log file to use for optional logging
 * @level:         Severity level of messages to log
 *
 * Return:         Device handle
 */
XCL_DRIVER_DLLESPEC
xclDeviceHandle
xclOpen(unsigned int deviceIndex, const char *logFileName,
        enum xclVerbosityLevel level);

/**
 * xclClose() - Close an opened device
 *
 * @handle:        Device handle
 */
XCL_DRIVER_DLLESPEC
void
xclClose(xclDeviceHandle handle);

/**
 * xclGetDeviceInfo2() - Obtain various bits of information from the device
 *
 * @handle:        Device handle
 * @info:          Information record
 * Return:         0 on success or appropriate error number
 */
XCL_DRIVER_DLLESPEC
int
xclGetDeviceInfo2(xclDeviceHandle handle, struct xclDeviceInfo2 *info);

/**
 * xclGetUsageInfo() - Obtain usage information from the device
 *
 * @handle:        Device handle
 * @info:          Information record
 * Return:         0 on success or appropriate error number
 */
XCL_DRIVER_DLLESPEC
int
xclGetUsageInfo(xclDeviceHandle handle, struct xclDeviceUsage *info);

/**
 * xclGetErrorStatus() - Obtain error information from the device
 *
 * @handle:        Device handle
 * @info:          Information record
 * Return:         0 on success or appropriate error number
 */
XCL_DRIVER_DLLESPEC
int
xclGetErrorStatus(xclDeviceHandle handle, struct xclErrorStatus *info);

/**
 * xclLoadXclBin() - Download FPGA image (xclbin) to the device
 *
 * @handle:        Device handle
 * @buffer:        Pointer to device image (xclbin) in memory
 * Return:         0 on success or appropriate error number
 *
 * Download FPGA image (AXLF) to the device. The PR bitstream is
 * encapsulated inside xclbin as a section. xclbin may also contains
 * other sections which are suitably handled by the driver.
 */
XCL_DRIVER_DLLESPEC
int
xclLoadXclBin(xclDeviceHandle handle, const struct axlf *buffer);

/**
 * xclGetSectionInfo() - Get Information from sysfs about the downloaded xclbin sections
 *
 * @handle:        Device handle
 * @info:          Pointer to preallocated memory which will store the return value.
 * @size:          Pointer to preallocated memory which will store the return size.
 * @kind:          axlf_section_kind for which info is being queried
 * @index:         The (sub)section index for the "kind" type.
 * Return:         0 on success or appropriate error number
 *
 * Get the section information from sysfs. The index corrresponds to the (section) entry
 * of the axlf_section_kind data being queried. The info and the size contain the return
 * binary value of the subsection and its size.
 */
XCL_DRIVER_DLLESPEC
int
xclGetSectionInfo(xclDeviceHandle handle, void* info, size_t *size,
                  enum axlf_section_kind kind, int index);

/**
 * xclReClock2() - Configure PR region frequncies
 *
 * @handle:        Device handle
 * @region:        PR region (always 0)
 * @targetFreqMHz: Array of target frequencies in order for the Clock Wizards driving
 *                 the PR region
 * Return:         0 on success or appropriate error number
 */
XCL_DRIVER_DLLESPEC
int
xclReClock2(xclDeviceHandle handle, unsigned short region,
            const unsigned short *targetFreqMHz);

/**
 * xclOpenContext() - Create shared/exclusive context on compute units
 *
 * @handle:        Device handle
 * @xclbinId:      UUID of the xclbin image running on the device
 * @ipIndex:       IP index
 * @shared:        Shared access or exclusive access
 * Return:         0 on success or appropriate error number
 *
 * The context is necessary before submitting execution jobs using
 * xclExecBuf(). Contexts may be exclusive or shared. Allocation of
 * exclusive contexts on a hardware IP would succeed only if another
 * client has not already setup up a context on that hardware IP.
 * Shared contexts can be concurrently allocated by many
 * processes on the same compute units.
 */
XCL_DRIVER_DLLESPEC
int
xclOpenContext(xclDeviceHandle handle, xuid_t xclbinId, unsigned int ipIndex,
               bool shared);

/**
 * xclCloseContext() - Close previously opened context
 *
 * @handle:        Device handle
 * @xclbinId:      UUID of the xclbin image running on the device
 * @ipIndex:       ipIndex
 * Return:         0 on success or appropriate error number
 *
 * Close a previously allocated shared/exclusive context for a hardware IP.
 */
XCL_DRIVER_DLLESPEC
int
xclCloseContext(xclDeviceHandle handle, xuid_t xclbinId, unsigned int ipIndex);

/*
 * Get the version number. 1 => Hal1 ; 2 => Hal2
 */
XCL_DRIVER_DLLESPEC
unsigned int
xclVersion();

/* End XRT Device Management APIs */


/**
 * xclLogMsg() - Send message to log file as per settings in ini file.
 *
 * @handle:        Device handle
 * @level:         Severity level of the msg
 * @tag:           Tag supplied by the client, like "OCL", "XMA", etc.
 * @format:        Format of Msg string to write to log file
 * @...:           All other arguments as per the format
 *
 * Return:         0 on success or appropriate error number
 */
XCL_DRIVER_DLLESPEC
int
xclLogMsg(xclDeviceHandle handle, enum xrtLogMsgLevel level, const char* tag,
          const char* format, ...);

/**
 * DOC: XRT Buffer Management APIs
 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 *
 * Buffer management APIs are used for managing device memory and migrating buffers
 * between host and device memory
 */

/**
 * xclAllocBO() - Allocate a BO of requested size with appropriate flags
 *
 * @handle:        Device handle
 * @size:          Size of buffer
 * @unused:        This argument is ignored
 * @flags:         Specify bank information, etc
 * Return:         BO handle
 */
XCL_DRIVER_DLLESPEC
xclBufferHandle
xclAllocBO(xclDeviceHandle handle, size_t size,int unused, unsigned int flags);

/**
 * xclAllocUserPtrBO() - Allocate a BO using userptr provided by the user
 *
 * @handle:        Device handle
 * @userptr:       Pointer to 4K aligned user memory
 * @size:          Size of buffer
 * @flags:         Specify bank information, etc
 * Return:         BO handle
 */
XCL_DRIVER_DLLESPEC
xclBufferHandle
xclAllocUserPtrBO(xclDeviceHandle handle,void *userptr, size_t size,
                  unsigned int flags);

/**
 * xclFreeBO() - Free a previously allocated BO
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 */
XCL_DRIVER_DLLESPEC
void
xclFreeBO(xclDeviceHandle handle, xclBufferHandle boHandle);

/**
 * xclWriteBO() - Copy-in user data to host backing storage of BO
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 * @src:           Source data pointer
 * @size:          Size of data to copy
 * @seek:          Offset within the BO
 * Return:         0 on success or appropriate error number
 *
 * Copy host buffer contents to previously allocated device
 * memory. ``seek`` specifies how many bytes to skip at the beginning
 * of the BO before copying-in ``size`` bytes of host buffer.
 */
XCL_DRIVER_DLLESPEC
size_t
xclWriteBO(xclDeviceHandle handle, xclBufferHandle boHandle,
           const void *src, size_t size, size_t seek);

/**
 * xclReadBO() - Copy-out user data from host backing storage of BO
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 * @dst:           Destination data pointer
 * @size:          Size of data to copy
 * @skip:          Offset within the BO
 * Return:         0 on success or appropriate error number
 *
 * Copy contents of previously allocated device memory to host
 * buffer. ``skip`` specifies how many bytes to skip from the
 * beginning of the BO before copying-out ``size`` bytes of device
 * buffer.
 */
XCL_DRIVER_DLLESPEC
size_t
xclReadBO(xclDeviceHandle handle, xclBufferHandle boHandle,
          void *dst, size_t size, size_t skip);

/**
 * xclMapBO() - Memory map BO into user's address space
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 * @write:         READ only or READ/WRITE mapping
 * Return:         Memory mapped buffer
 *
 * Map the contents of the buffer object into host memory
 * To unmap the buffer call xclUnmapBO().
 */
XCL_DRIVER_DLLESPEC
void*
xclMapBO(xclDeviceHandle handle, xclBufferHandle boHandle, bool write);

/**
 * xclUnmapBO() - Unmap a BO that was previously mapped with xclMapBO
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 * @addr:          The mapped void * pointer returned from xclMapBO()
 */
XCL_DRIVER_DLLESPEC
int
xclUnmapBO(xclDeviceHandle handle, xclBufferHandle boHandle, void* addr);

/**
 * xclSyncBO() - Synchronize buffer contents in requested direction
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 * @dir:           To device or from device
 * @size:          Size of data to synchronize
 * @offset:        Offset within the BO
 * Return:         0 on success or standard errno
 *
 * Synchronize the buffer contents between host and device. Depending
 * on the memory model this may require DMA to/from device or CPU
 * cache flushing/invalidation
 */
XCL_DRIVER_DLLESPEC
int
xclSyncBO(xclDeviceHandle handle, xclBufferHandle boHandle,
          enum xclBOSyncDirection dir, size_t size, size_t offset);
/**
 * xclCopyBO() - Copy device buffer contents to another buffer
 *
 * @handle:        Device handle
 * @dstBoHandle:   Destination BO handle
 * @srcBoHandle:   Source BO handle
 * @size:          Size of data to synchronize
 * @dst_offset:    dst  Offset within the BO
 * @src_offset:    src  Offset within the BO
 * Return:         0 on success or standard errno
 *
 * Copy from source buffer contents to destination buffer, can be
 * device to device or device to host.  Always perform WRITE to
 * achieve better performance, destination buffer can be on device or
 * host require DMA from device
 */
XCL_DRIVER_DLLESPEC
int
xclCopyBO(xclDeviceHandle handle, xclBufferHandle dstBoHandle,
          xclBufferHandle srcBoHandle, size_t size, size_t dst_offset,
          size_t src_offset);

/**
 * xclExportBO() - Obtain DMA-BUF file descriptor for a BO
 *
 * @handle:        Device handle
 * @boHandle:      BO handle which needs to be exported
 * Return:         File handle to the BO or standard errno
 *
 * Export a BO for import into another device or Linux subsystem which
 * accepts DMA-BUF fd This operation is backed by Linux DMA-BUF
 * framework
 */
XCL_DRIVER_DLLESPEC
int
xclExportBO(xclDeviceHandle handle, xclBufferHandle boHandle);

/**
 * xclImportBO() - Obtain BO handle for a BO represented by DMA-BUF file descriptor
 *
 * @handle:        Device handle
 * @fd:            File handle to foreign BO owned by another device which needs to be imported
 * @flags:         Unused
 * Return:         BO handle of the imported BO
 *
 * Import a BO exported by another device.     *
 * This operation is backed by Linux DMA-BUF framework
 */
XCL_DRIVER_DLLESPEC
xclBufferHandle
xclImportBO(xclDeviceHandle handle, int fd, unsigned int flags);

/**
 * xclGetBOProperties() - Obtain xclBOProperties struct for a BO
 *
 * @handle:        Device handle
 * @boHandle:      BO handle
 * @properties:    BO properties struct pointer
 * Return:         0 on success
 *
 * This is the prefered method for obtaining BO property information.
 */
XCL_DRIVER_DLLESPEC
int
xclGetBOProperties(xclDeviceHandle handle, xclBufferHandle boHandle,
                   struct xclBOProperties *properties);

/* End XRT Buffer Management APIs */

/**
 * DOC: XRT Unmanaged DMA APIs
 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~
 *
 * Unmanaged DMA APIs are for exclusive use by the debuggers and
 * tools. The APIs allow clinets to read/write from/to absolute device
 * address. No checks are performed if a buffer was allocated before
 * at the specified location or if the address is valid. Users who
 * want to take over the full memory managemnt of the device may use
 * this API to synchronize their buffers between host and device.
 */

/**
 * xclUnmgdPread() - Perform unmanaged device memory read operation
 *
 * @handle:        Device handle
 * @flags:         Unused
 * @buf:           Destination data pointer
 * @size:          Size of data to copy
 * @offset:        Absolute offset inside device
 * Return:         0 on success or appropriate error number
 *
 * This API may be used to perform DMA operation from absolute
 * location specified. Users may use this if they want to perform
 * their own device memory management -- not using the buffer object
 * (BO) framework defined before.
 */
XCL_DRIVER_DLLESPEC
ssize_t
xclUnmgdPread(xclDeviceHandle handle, unsigned int flags, void *buf,
              size_t size, uint64_t offset);

/**
 * xclUnmgdPwrite() - Perform unmanaged device memory read operation
 *
 * @handle:        Device handle
 * @flags:         Unused
 * @buf:           Source data pointer
 * @size:          Size of data to copy
 * @offset:        Absolute offset inside device
 * Return:         0 on success or appropriate error number
 *
 * This API may be used to perform DMA operation to an absolute
 * location specified. Users may use this if they want to perform
 * their own device memory management -- not using the buffer object
 * (BO) framework defined before.
 */
XCL_DRIVER_DLLESPEC
ssize_t
xclUnmgdPwrite(xclDeviceHandle handle, unsigned int flags, const void *buf,
               size_t size, uint64_t offset);

/* End XRT Unmanaged DMA APIs */

/*
 * DOC: XRT Register read/write APIs
 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 *
 * These functions are used to read and write peripherals sitting on
 * the address map.  Note that the offset is wrt the address
 * space. The register map and address map of execution units can be
 * obtained from xclbin. Note that these APIs are multi-threading/
 * multi-process safe and no checks are performed on the read/write
 * requests.  OpenCL runtime does **not** use these APIs but instead
 * uses execution management APIs defined below.
 */

/* XRT Register read/write APIs */

/*
 * TODO:
 * Define the following APIs
 *
 * 1. Host accessible pipe APIs: pread/pwrite
 * 2. Accelerator status, start, stop APIs
 * 3. Context creation APIs to support multiple clients
 * 4. Multiple OCL Region support
 * 5. DPDK style buffer management and device polling
 *
 */

/**
 * DOC: XRT Compute Unit Execution Management APIs
 *
 * These APIs are under development. These functions will be used to
 * start compute units and wait for them to finish.
 */

/**
 * xclExecBuf() - Submit an execution request to the embedded (or software) scheduler
 *
 * @handle:        Device handle
 * @cmdBO:         BO handle containing command packet
 * Return:         0 or standard error number
 *
 * Submit an exec buffer for execution. The exec buffer layout is
 * defined by struct ert_packet which is defined in file *ert.h*. The
 * BO should been allocated with DRM_XOCL_BO_EXECBUF flag.
 */
XCL_DRIVER_DLLESPEC
int
xclExecBuf(xclDeviceHandle handle, xclBufferHandle cmdBO);

/**
 * xclExecBufWithWaitList() - Submit an execution request to the embedded (or software) scheduler
 *
 * @handle:              Device handle
 * @cmdBO:               BO handle containing command packet
 * @num_bo_in_wait_list: Number of BO handles in wait list
 * @bo_wait_list:        BO handles that must complete execution before cmdBO is started
 * Return:               0 or standard error number
 *
 * Submit an exec buffer for execution. The BO handles in the wait
 * list must complete execution before cmdBO is started.  The BO
 * handles in the wait list must have beeen submitted prior to this
 * call to xclExecBufWithWaitList.
 */
XCL_DRIVER_DLLESPEC
int
xclExecBufWithWaitList(xclDeviceHandle handle, xclBufferHandle cmdBO,
                       size_t num_bo_in_wait_list, xclBufferHandle *bo_wait_list);

/**
 * xclExecWait() - Wait for one or more execution events on the device
 *
 * @handle:                  Device handle
 * @timeoutMilliSec:         How long to wait for
 * Return:                   Same code as poll system call
 *
 * Wait for notification from the hardware. The function essentially
 * calls "poll" system call on the driver file handle. The return
 * value has same semantics as poll system call.  If return value is >
 * 0 caller should check the status of submitted exec buffers Note
 * that if you perform wait for the same handle from multiple threads,
 * you may lose wakeup for some of them. So, use different handle in
 * different threads.
 */
XCL_DRIVER_DLLESPEC
int
xclExecWait(xclDeviceHandle handle, int timeoutMilliSec);

/* XRT Compute Unit Execution Management APIs */

/**
 * DOC: XRT Stream Queue APIs
 *
 * These functions are used for next generation DMA Engine, QDMA. QDMA
 * provides not only memory mapped DMA which moves data between host
 * memory and board memory, but also stream DMA which moves data
 * between host memory and kernel directly. XDMA memory mapped DMA
 * APIs are also supported on QDMA. New stream APIs are provided here
 * for preview and may be revised in a future release. These can only
 * be used with platforms with QDMA engine under the hood. The higher
 * level OpenCL based streaming APIs offer more refined interfaces and
 * compatibility between releases and each stream maps to a QDMA queue
 * underneath.
 */

enum xclStreamContextFlags {
	/* Enum for xclQueueContext.flags */
	XRT_QUEUE_FLAG_POLLING		= (1 << 2),
};

/*
 * struct xclQueueContext - structure to describe a Queue
 */
struct xclQueueContext {
    uint32_t	type;	   /* stream or packet Queue, read or write Queue*/
    uint32_t	state;	   /* initialized, running */
    uint64_t	route;	   /* route id from xclbin */
    uint64_t	flow;	   /* flow id from xclbin */
    uint32_t	qsize;	   /* number of descriptors */
    uint32_t	desc_size; /* this might imply max inline msg size */
    uint64_t	flags;	   /* isr en, wb en, etc */
};

/**
 * xclCreateWriteQueue - Create Write Queue
 *
 * @handle:        Device handle
 * @q_ctx:         Queue Context
 * @q_hdl:         Queue handle
 * Return:         0 or appropriate error number
 *
 * Create write queue based on information provided in Queue
 * context. Queue handle is generated if creation successes.
 */
XCL_DRIVER_DLLESPEC
int
xclCreateWriteQueue(xclDeviceHandle handle, struct xclQueueContext *q_ctx,
                    uint64_t *q_hdl);

/**
 * xclCreateReadQueue - Create Read Queue
 *
 * @handle:        Device handle
 * @q_ctx:         Queue Context
 * @q_hdl:         Queue handle
 * Return:         0 or appropriate error number
 *
 * Create read queue based on information provided in Queue
 * context. Queue handle is generated if creation successes.
 */
XCL_DRIVER_DLLESPEC
int
xclCreateReadQueue(xclDeviceHandle handle, struct xclQueueContext *q_ctx,
                   uint64_t *q_hdl);

/**
 * xclDestroyQueue - Destroy Queue
 *
 * @handle:        Device handle
 * @q_hdl:         Queue handle
 * Return:         0 or appropriate error number
 *
 * Destroy read or write queue and release all queue resources.
 */
XCL_DRIVER_DLLESPEC
int
xclDestroyQueue(xclDeviceHandle handle, uint64_t q_hdl);

/**
 * xclAllocQDMABuf - Allocate DMA buffer
 *
 * @handle:        Device handle
 * @size:          Buffer size
 * @buf_hdl:       Buffer handle
 * Return:         0 or appropriate error number
 *
 * Allocate DMA buffer which is used for queue read and write.
 */
XCL_DRIVER_DLLESPEC
void*
xclAllocQDMABuf(xclDeviceHandle handle, size_t size, uint64_t *buf_hdl);

/**
 * xclFreeQDMABuf - Free DMA buffer
 *
 * @handle:        Device handle
 * @buf_hdl:       Buffer handle
 * Return:         0 or appropriate error number
 *
 * Free DMA buffer allocated by xclAllocQDMABuf.
 */
XCL_DRIVER_DLLESPEC
int
xclFreeQDMABuf(xclDeviceHandle handle, uint64_t buf_hdl);

/*
 * xclModifyQueue - Modify Queue
 *
 * @handle:		Device handle
 * @q_hdl:		Queue handle
 *
 * This function modifies Queue context on the fly. Modifying rid implies
 * to program hardware traffic manager to connect Queue to the kernel pipe.
 */
XCL_DRIVER_DLLESPEC
int
xclModifyQueue(xclDeviceHandle handle, uint64_t q_hdl);

/*
 * xclStartQueue - set Queue to running state
 * @handle:             Device handle
 * @q_hdl:              Queue handle
 *
 * This function set xclStartQueue to running state. xclStartQueue
 * starts to process Read and Write requests.
 * TODO: remove this
 */
XCL_DRIVER_DLLESPEC
int
xclStartQueue(xclDeviceHandle handle, uint64_t q_hdl);

/*
 * xclStopQueue - set Queue to init state
 * @handle:             Device handle
 * @q_hdl:              Queue handle
 *
 * This function set Queue to init state. all pending read and write
 * requests will be flushed.  wr_complete and rd_complete will be
 * called with error wbe for flushed requests.
 * TODO: remove this
 */
XCL_DRIVER_DLLESPEC
int
xclStopQueue(xclDeviceHandle handle, uint64_t q_hdl);

/*
 * struct xclWRBuffer
 */
struct xclReqBuffer {
    union {
	char*    buf;    // ptr or,
	uint64_t va;	 // offset
    };
    uint64_t  len;
    uint64_t  buf_hdl;   // NULL when first field is buffer pointer
};

/*
 * enum xclQueueRequestKind - request type.
 */
enum xclQueueRequestKind {
    XCL_QUEUE_WRITE = 0,
    XCL_QUEUE_READ  = 1,
    //More, in-line etc.
};

/*
 * enum xclQueueRequestFlag - flags associated with the request.
 */
/* this has to be the same with Xfer flags defined in opencl CL_STREAM* */
enum xclQueueRequestFlag {
    XCL_QUEUE_REQ_EOT			= 1 << 0,
    XCL_QUEUE_REQ_CDH			= 1 << 1,
    XCL_QUEUE_REQ_NONBLOCKING		= 1 << 2,
    XCL_QUEUE_REQ_SILENT		= 1 << 3, /* not supp. not generate event for non-blocking req */
};

/*
 * struct xclQueueRequest - read and write request
 */
struct xclQueueRequest {
    enum xclQueueRequestKind op_code;
    struct xclReqBuffer*       bufs;
    uint32_t	        buf_num;
    char*               cdh;
    uint32_t	        cdh_len;
    uint32_t		flag;
    void*		priv_data;
    uint32_t            timeout;
};

/*
 * struct xclReqCompletion - read/write completion
 * keep this in sync with cl_streams_poll_req_completions
 * in core/include/stream.h
 */
struct xclReqCompletion {
    char			resv[64]; /* reserved for meta data */
    void			*priv_data;
    size_t			nbytes;
    int				err_code;
};

/**
 * xclWriteQueue - write data to queue
 * @handle:        Device handle
 * @q_hdl:         Queue handle
 * @wr_req:        Queue request
 * Return:         Number of bytes been written or appropriate error number
 *
 * Move data from host memory to board. The destination is determined
 * by flow id and route id which are provided to
 * xclCreateWriteQueue. it returns number of bytes been moved or error
 * code.  By default, this function returns only when the entire buf
 * has been written, or error. If XCL_QUEUE_REQ_NONBLOCKING flag is
 * used, it returns immediately and xclPollCompletion needs to be used
 * to determine if the data transmission is completed.  If
 * XCL_QUEUE_REQ_EOT flag is used, end of transmit signal will be
 * added at the end of this tranmission.
 */
XCL_DRIVER_DLLESPEC
ssize_t
xclWriteQueue(xclDeviceHandle handle, uint64_t q_hdl, struct xclQueueRequest *wr_req);

/**
 * xclReadQueue - read data from queue
 * @handle:        Device handle
 * @q_hdl:         Queue handle
 * @rd_req:        read request
 * Return:         Number of bytes been read or appropriate error number
 *
 * Move data from board to host memory. The source is determined by
 * flow id and route id which are provided to xclCreateReadQueue. It
 * returns number of bytes been moved or error code.  This function
 * returns until all the requested bytes is read or error happens. If
 * XCL_QUEUE_REQ_NONBLOCKING flag is used, it returns immediately and
 * xclPollCompletion needs to be used to determine if the data
 * trasmission is completed.  If XCL_QUEUE_REQ_EOT flag is used, data
 * transmission for the current read request completes immediatly once
 * end of transmit signal is received.
 */
XCL_DRIVER_DLLESPEC
ssize_t
xclReadQueue(xclDeviceHandle handle, uint64_t q_hdl, struct xclQueueRequest *rd_req);

/**
 * xclPollQueue - poll a single read/write queue completion
 * @handle:        Device handle
 * @q_hdl:         Queue handle
 * @min_compl:     Unblock only when receiving min_compl completions
 * @max_compl:     Max number of completion with one poll
 * @comps:         Completed request array
 * @actual_compl:  Number of requests been completed
 * @timeout:       Timeout
 * Return:         Number of events or appropriate error number
 *
 * Poll completion events of non-blocking read/write requests. Once
 * this function returns, an array of completed requests is returned.
 */
XCL_DRIVER_DLLESPEC
int
xclPollQueue(xclDeviceHandle handle, uint64_t q_hdl, int min_compl,
		   int max_compl, struct xclReqCompletion *comps,
		   int* actual_compl, int timeout);

/**
 * xclSetQueueOpt - Set a single read/write queue's option
 * @handle:        Device handle
 * @q_hdl:         Queue handle
 * @type:          option type
 * @val:           option value
 * Return:         Number of events or appropriate error number
 *
 * Set option of a read or write queue. 
 */
XCL_DRIVER_DLLESPEC
int
xclSetQueueOpt(xclDeviceHandle handle, uint64_t q_hdl, int type, uint32_t val);


/**
 * xclPollCompletion - poll read/write queue completion
 * @min_compl:     Unblock only when receiving min_compl completions
 * @max_compl:     Max number of completion with one poll
 * @comps:         Completed request array
 * @actual_compl:  Number of requests been completed
 * @timeout:       Timeout
 * Return:         Number of events or appropriate error number
 *
 * Poll completion events of non-blocking read/write requests. Once
 * this function returns, an array of completed requests is returned.
 */
XCL_DRIVER_DLLESPEC
int
xclPollCompletion(xclDeviceHandle handle, int min_compl, int max_compl,
                  struct xclReqCompletion *comps, int* actual_compl, int timeout);

XCL_DRIVER_DLLESPEC
const struct axlf_section_header*
wrap_get_axlf_section(const struct axlf* top, enum axlf_section_kind kind);

XCL_DRIVER_DLLESPEC
size_t
xclDebugReadIPStatus(xclDeviceHandle handle, enum xclDebugReadType type,
                     void* debugResults);

#ifdef __cplusplus
}
#endif

#include "deprecated/xrt.h"

#endif
